A socket for an electrical part includes a socket body to which an electrical part is accommodated, the socket body having a base portion to which a number of elastic contact pins are arranged, a movable member disposed to the socket body above the base portion to be vertically movable, contact portions, between which a terminal of the electric part is inserted, formed to the contact pins being opened or closed, and a preloading member adapted to elastically deform the elastic pieces in a direction of closing the contact portions of the contact pins.
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7. A socket comprising:
a socket body to accommodate an electrical part therein, and comprising a base portion to which contact pins are arranged, the contact pins comprising elastic pieces and contact portions, and contacting and separating from terminals of the electrical part;
a movable member disposed on the socket body above the base portion and comprising an insertion hole to receive the elastic pieces of the contact pins and to be vertically movable, wherein deformation of the elastic pieces of the contact pins inserted into the insertion hole of the movable member is performed in accordance with a vertical movement of the movable member;
means for elastically deforming the elastic pieces in a direction of closing the contact portions of the contact pins by exerting a force to push the contact pins at respective elastic pieces thereof, when the respective elastic pieces are inserted into insertion holes of the base portion of the socket body.
1. A socket for an electrical part comprising:
a socket body to which an electrical part is accommodated, the socket body having a base portion to which a plurality of contact pins, having elastic pieces, which are contacted to or separated from terminals of the electrical part, are arranged;
a movable member disposed to the socket body above the base portion thereof to be vertically movable, deformation of the elastic pieces of the contact pins inserted into an insertion hole formed to the movable member being performed in accordance with the vertical movement of the movable member, according to the deformation thereof, contact portions formed to the contact pins being opened or closed; and
a preloading member adapted to elastically deform the elastic pieces in a direction of closing the contact portions of the contact pins by exerting a force to push the contact pins at respective elastic pieces thereof, when the respective elastic pieces are inserted into insertion holes of the base portion of the socket body.
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3. The socket for an electrical part according to
4. The socket for an electrical part according to
5. The socket for an electrical part according to
6. The socket for an electrical part according to
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10. The socket of
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1. Field of the Invention
The present invention relates to a socket for an electrical part for detachably holding an electrical part such as a semiconductor device (called as “IC package” hereinlater).
2. Related Art
In a known art, there has been provided an IC socket, as “socket for an electrical part” for detachably holding an “IC package” as an electrical part such as disclosed in Japanese Laid-Open (KOKAI) Patent Publication No. 2002-8809.
The IC package disclosed in this publication includes a number of solder balls, as terminals, which are arranged on a lower surface of the IC package so as to protrude therefrom in an lattice arrangement including vertical rows Y and horizontal lines X.
The IC socket, on the other hand, includes a socket body in which the IC package is accommodated and which is provided with a number of contact pins contacting the terminals of the IC package. The socket body is also provided with a movable (moving) member vertically movable to elastically deform the contact pins so as to be contacted or separated to or from the terminals of the IC package.
The socket body is further provided with a lever member to vertically move the movable member to be rotatable through a rotation shaft, i.e., pivot, and an operation member for rotating or pivoting the lever member is also provided to the socket body to be vertically movable.
By vertically moving the operation member, the lever member is rotated and, hence, the movable member is vertically moved, thus elastically deforming the contact pins, and accordingly, contact portions of the contact pins are contacted to or separated from the terminals of the IC package, respectively.
However, in the conventional structure of the IC socket mentioned above, it is necessary to maintain or ensure contact pressure at the time of clamping the terminal of the IC package and contacting it to a pair of contact portions of each contact pin, and in order to ensure such contact pressure, it has been required for the contact pin to have a relatively large elasticity, and on the contrary, in order to reduce influence between the terminal and the contact portions of the contact pin at the IC packaging insertion time, it is necessary to ensure a relatively large opening distance between the paired contact portions. In view of these matters, when the contact pin having relatively large elasticity is utilized to ensure the predetermined contact pressure, a relatively large operating force is required for ensuring the relatively large opening distance. This matter may cause the device to be inoperative state if the number of contact pins further increases, thus being inconvenient and disadvantageous.
The present invention was then conceived to eliminate the defects or inconveniences encountered in the prior art mentioned above and an object of the present invention is to provide a socket for an electrical part capable of being operated with a small operating force even with contact pressure of the contact pin and opening amount or distance being suitably ensured.
This and other objects can be achieved according to the present invention by providing a socket for an electrical part, which comprises: a socket body to which an electrical part is accommodated, the socket body having a base portion (or member) to which a plurality of contact pins, having elastic pieces, which are contacted to or separated from terminals of the electrical part, are arranged; a movable member disposed to the socket body above the base portion thereof to be vertically movable, deformation of the elastic pieces of the contact pins inserted into an insertion hole formed to the movable member being performed in accordance with the vertical movement of the movable member, according to the deformation thereof, contact portions formed to the contact pins being opened or closed; and a preloading member adapted to elastically deform the elastic pieces in a direction of closing the contact portions of the contact pins in a state that the contact pins are inserted into insertion holes of the base portion of the socket body.
In preferred embodiments, the preloading member may be composed of preloading projections formed to a pair of elastic pieces of the respective contact pins, the paired elastic pieces are elastically deformed in the direction closing both the contact portions of the contact pins through abutment of the preloading projections against the inner wall of the insertion hole of the base portion.
The contact pins will be inserted upward from a lower side of the insertion hole of the base portion of the socket body.
The contact pins are provided with stopper pieces, respectively, abutting against a lower surface of the base portion, and a support member is further disposed below the base portion so as to block downward movement of the stopper member.
According to the present invention of the characters and structures mentioned above, since the preloading member for elastically deforming both the elastic pieces of each contact pin in the direction of closing both the contact portions of the contact pin in a state that the contact pin is inserted into the insertion hole of the base portion of the socket body, the contact pressure of the contact portions to the terminal can be ensured even if the elastic pieces have weak elastic force, and in addition, when both contact portions are opened, they can be easily opened with weak opening force and suitable opening distance can be ensured.
Therefore, even if a large number of contact pins are arranged, both contact portions of the respective contact pins can be easily opened, and suitable contacting pressure to the terminals of the IC package can be ensured.
In addition, since the preload is uniformly given to the paired elastic pieces, and since the movable member is vertically moved to thereby open or close the paired contact portions, the opposing forces from the contact pins are equally applied to the respective insertion holes of the movable member. Accordingly, a large unidirectional force as a whole is never applied to the movable member, and hence, the deformation of the movable member can be also suppressed. Thus, in this viewpoint, it becomes possible to locate an increased number of contact pins.
Furthermore, in the preferred embodiment, the preloading member is composed of preloading projections which are formed to the paired elastic pieces of the contact pins, respectively. When the preloading projections abut against the inner wall of the insertion hole of the base portion, the contact portions of the elastic pieces can be elastically deformed in the closing direction thereof, so that the preload can be applied with simple structure.
Still furthermore, since the contact pins are inserted into the insertion holes of the base portion of the socket body from the lower side thereof, the contact pins can be inserted all at once from the lower side in a state that the movable member is placed on the base portion of the socket body, whereby the contact pin arrangement working can be easily performed.
Still furthermore, the stopper member is formed to the contact pin so as to abut against the lower surface of the base portion and the support member is also disposed to the lower side of the base portion so as to block the downward movement of the stopper member. Accordingly, the upper limit of the contact portions is limited, so that the contact portions do not project upward over the predetermined position, thus suppressing the damage of the terminal of the electrical part.
In addition, since the support member is disposed below the stopper member of the contact pin so as to block the downward movement of the stopper member, the contact pins can be maintained in their predetermined height level.
The nature and further characteristic features of the present invention will be made more clear from the following descriptions made with reference to the accompanying drawings.
In the accompanying drawings:
Preferred embodiments of the present invention will be described hereunder with reference to the accompanying drawings.
[First Embodiment]
With reference to
The IC package 12 is so-called an BGA (Ball Grid Array) type, such as shown in
On the other hand, as shown in
The contact pin 15 is formed from a plate member, rich in a springy property and electrical conductivity, through a press working in a shape as shown in
More specifically, the contact pin has a base portion 15a as a stopper portion having U-shape in section at an intermediate portion of the contact pin 15 in its vertical direction and also has a solder tale portion 15b formed to the lower side of the base portion 15a and has a pair of elastic pieces 15c formed to the upper side of the base portion 15a.
The paired elastic pieces 15c have lower end sides commonly formed as the U-shaped base portion 15a, and accordingly, these elastic pieces face to face each other. The elastic pieces 15c have upper end sides (front free end side portions) to which contact portions 15d are formed so as to contact or separate from the side portion of the solder ball 12b, so that when the solder ball 12b is clamped between these paired contact portions 15d, the electrical connection can be established.
Furthermore, the paired elastic pieces 15c have lower portions 15e which are inserted into insertion hole 14a of a base member or base portion 14, and preloading projections 15f are formed to the upper sides of these lower portions 15e so as to project sideways. These preloading projections 15f abut against an inner wall of the insertion hole 14a to thereby be elastically deformed in a direction along which the contact portions 15d are closed and to apply the preload.
In addition, sliding or slidable portions 15g are formed to the upper sides of the lower portion 15e of the paired elastic pieces 15c so as to project in a direction opposite to the lower portion (15e) side. The slidable portions 15g project over the base member 14 and inserted into an insertion hole 17a of the movable member 17. When the movable member 17 moves vertically, the inner wall portions of the insertion hole 17a slide along the slidable portions 15g and, hence, the elastic pieces 15c are elastically deformed, thereby opening or closing the paired contact portions 15d.
The insertion hole 17a of the movable member 17 has a shape downward opened, as viewed such as shown in
Still furthermore, both contact portions 15d project upward, as shown in
Further, as shown in
In addition, a location board 24 is disposed to the lower side of the bottom plate 23 to be vertically movable. Each of the solder tail portions 15b projecting downward from the bottom plate 23 further projects downward through the location board 24 as shown in
According to such connection, a number of contact pins 15 are arranged into matrix as shown in
In the meantime, the movable member 17 has, as shown in
Further, as shown in
The latch member 28 includes, as shown in
When the movable member 17 is moved downward, the pressing portion 17d of the movable member 17 presses the pressed portion 28b of the latch member 28, and then, the latch member 28 is rotated to be opened from a position shown with solid line in
The operation member 21 has a square frame shape, which is arranged on the periphery of the guide member 19 and the socket body 13 to be movable in the vertical direction. The operation member 21 has a pressing surface 21a pressing a surface 17e to be pressed (pressed surface 17e) formed on the upper surface of the projection piece 17c of the movable member 17, and when pressed, the movable member 17 is moved downward against the urging force of the coil spring 25.
The IC socket 11 having the structure mentioned above will be usable in a manner described hereunder.
A printed circuit board on which a number of IC sockets 11 are arranged is preliminarily prepared, and then, in order to set the IC packages 12 respectively to the IC sockets 11 by using an automatic machine, the operation member 21 is first pressed downward.
According to this lowering motion of the operation member 21, the movable member 17 is pressed downward and then lowered against the urging force of the coil spring 25.
The lowering motion of the movable member 17 opens both paired contact portions 15d of each of the contact pins 15 and, hence, opens the latch member 28.
That is, when the movable member 17 is lowered, the portion 28b to be pressed of the latch member 28 is pressed by the pressing portion 17d, and against the urging force of the spring 29, the latch member 28 is rotated to the position shown with the two-dots-chain line in
Further, when the movable member 17 is lowered from the position shown in
In the state mentioned above, the IC package 12 is guided by the guides 19b and accommodated on the predetermined portion on the support pieces 19a, and the solder balls 12b of the IC package 12 are inserted, in non-contact state, between the opened pair of contact portions 15d of the contact pins 15, respectively, as shown in
Thereafter, when the downward pressing force of the operation member 21 is released, the movable member 17 moves upward by the urging force of the coil spring 25, and then, the latch member 28 is rotated to the position in the closing direction by the urging force of the spring 29. Thus, the floating of the IC package 12 can be prevented by the pressing of the latch member 28.
Moreover, when the movable member 17 is moved upward, the pressing force to the slidable portions 15g of the contact pin 15 is released, and is then moved in the direction along which the paired contact portions 15d are closed (that is, the distance therebetween is narrowed) from the state shown in
Therefore, the respective solder balls 12b of the IC package 12 and the printed circuit board are electrically connected through the contact pins 15, i.e., through the deformation of the contact pieces of the contact pins.
On the other hand, when it is required to dismount the IC package 12 from the state mounted to the socket, the movable member 17 is first lowered by the operation of the operation member 21 to thereby rotate so as to retire the latch member 28 from the accommodation/take-out range, and then, the paired contact portions 15d of the contact pin 15 are separated from the solder ball 12b, so that when the solder ball 12b is pulled out of the clamped state between the paired contact portions 15d, the solder ball 12b can be easily pulled out with weak force, thus easily removing the IC package 12.
According to the invention of the structure mentioned above, the preloading projection 15f of the contact pin 15 abuts against the inner wall of the insertion hole 14a of the base member 14, the elastic pieces 15c of the contact pin 15 are elastically deformed in the direction of closing a pair of contact portions 15d of the contact pin 15, thus applying preload.
In thus manner, even in the case of weak elastic force of the elastic pieces 15c, the contacting pressure of the contact portions 15d to the solder ball 12b can be ensured.
Accordingly, when both contact portions 15d are opened, they can be easily opened with a weak force and the sufficient opened amount, i.e., distance, can be ensured.
Therefore, even if a large number of contact pins 15 are arranged, both contact portions 15d of the respective contact pins 15 can be easily opened, and the contacting pressure thereof to the solder balls 12b can be also ensured.
In addition, since the preload is uniformly given to the paired elastic pieces 15c, and since the contact portions 15d can be opened or closed by the movable member, which is then moved vertically to open or close the contact portions 15d, the opposing uniform forces are applied to the insertion holes 17a of the movable member 17, so that no unidirectional force as a whole is applied to the movable member 17, thus effectively suppressing the deformation of the movable member 17, and accordingly, in this view point, an increased number of contact pins 15 can be arranged.
In the meantime, in a structure in which a preload is applied only to one of the elastic pieces 15c to thereby move the movable member 17 in the horizontal direction, a large force is applied only in one direction, i.e., to the entire structure of the movable member 17, so that there is a fear of the movable member 17 being deformed, which may constitute an obstacle for arrangement of a large number of contact pins 15.
Furthermore, according to the present invention, since the contact pin 15 is inserted into the insertion hole 14a of the base member 14 of the socket body 13 from the lower side toward the upper side, the base portion 15a of the contact pin 15 abuts against the lower surface of the base member 14 to thereby restrict the upper limit of the position of the contact portions 15d of the contact pin 15. Accordingly, the contact portion 15d do not project upward over the predetermined position, so that the solder ball 12b is less damaged.
Moreover, since the contact pins 15 are inserted at once into the insertion holes 14a and 17a from the lower side thereof in a state of the movable member 17 being arranged on the base member 14, the contact pins 15 and associated members or parts can be easily assembled.
Still furthermore, according to the described embodiment, the bottom plate 23 is disposed on the lower side of the base portions 15a of the contact pins 15 so as to prevent the base portions 15a from moving downward, so that the contact pins 15 can be maintained in their predetermined height level.
[Second Embodiment]
The second embodiment differs from the first embodiment in that an operation member 21 in the first embodiment is not located, and the guide member only includes the support piece 19a and does not include the guide 19b.
In such structure of the second embodiment, the pressed surface 17e (horizontal surface) formed on the upper surface of the projection piece 17c of the movable member 17 is directly pressed by a head disposed on the package insertion/take-out device side, not shown.
Accordingly, with no use of the operation member 21, the number of constitutional members or parts can be reduced, and in addition, the surface 17e to be pressed has a horizontal surface perpendicular to the moving direction (vertical direction), so that the head side can be simply constructed, thus improving the strength thereof, and furthermore, there is not adopted a sliding structure, any wearing can be positively prevented, thereby improving the durability of the IC socket as well as such head, thus being effective.
The structures of the second embodiment other than the above different structure are substantially the same as those of the first embodiment, so that the details thereof are omitted herein.
Further, it is to be noted that the present invention is not limited to the described embodiments and many other changes and modifications may be made without departing from the scopes of the appended claims.
For example, in the described embodiments, although the present invention is utilized as the IC socket 11 for as a socket for electrical parts, the present invention is not limited thereto and may be applied to another device. Moreover, although the present invention is applied to the IC socket 11 for the BGA type IC package 12, it may be applied to an IC socket for a PGA (Pin Grid Array) type IC package. Furthermore, in the described embodiments, although the preloading projections 15f are formed, as preloading means, to the elastic pieces 15c of the contact pin 15, the preloading means may take various shapes, and may be arranged on the base member (14) side as projections.
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